神经元通过克雷布斯效应的变体控制星形胶质细胞的呼吸作用。
Neuronal control of astrocytic respiration through a variant of the Crabtree effect.
机构信息
Centro de Estudios Científicos, 5110466 Valdivia, Chile.
Universidad Austral de Chile, 5110566 Valdivia, Chile.
出版信息
Proc Natl Acad Sci U S A. 2018 Feb 13;115(7):1623-1628. doi: 10.1073/pnas.1716469115. Epub 2018 Jan 29.
Abstract
Aerobic glycolysis is a phenomenon that in the long term contributes to synaptic formation and growth, is reduced by normal aging, and correlates with amyloid beta deposition. Aerobic glycolysis starts within seconds of neural activity and it is not obvious why energetic efficiency should be compromised precisely when energy demand is highest. Using genetically encoded FRET nanosensors and real-time oxygen measurements in culture and in hippocampal slices, we show here that astrocytes respond to physiological extracellular K with an acute rise in cytosolic ATP and a parallel inhibition of oxygen consumption, explained by glycolytic stimulation via the Na-bicarbonate cotransporter NBCe1. This control of mitochondrial respiration via glycolysis modulation is reminiscent of a phenomenon previously described in proliferating cells, known as the Crabtree effect. Fast brain aerobic glycolysis may be interpreted as a strategy whereby neurons manipulate neighboring astrocytes to obtain oxygen, thus maximizing information processing.
摘要
有氧糖酵解是一种现象,长期以来有助于突触的形成和生长,在正常衰老过程中会减少,并与淀粉样β沉积相关。有氧糖酵解在神经活动发生后的几秒钟内开始,而当能量需求最高时,为什么能量效率会受到损害,这并不明显。我们在这里使用遗传编码的 FRET 纳米传感器和培养物以及海马切片中的实时氧测量,表明星形胶质细胞对生理细胞外 K+的反应是细胞浆 ATP 的急性增加和氧消耗的平行抑制,这可以通过 Na-碳酸氢盐共转运蛋白 NBCe1 介导的糖酵解刺激来解释。这种通过糖酵解调节对线粒体呼吸的控制使人想起以前在增殖细胞中描述的一种现象,称为 Crabtree 效应。快速的大脑有氧糖酵解可以被解释为一种策略,即神经元操纵邻近的星形胶质细胞来获取氧气,从而最大限度地提高信息处理能力。
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